Freight protection system

ABSTRACT

An alarm unit ( 1 ) for a vehicle comprises four magnet housings ( 4 ), each having a vehicle-engaging surface and four magnets ( 5 ) received within respective magnet housings ( 4 ) and arranged for movement relative to the vehicle-engaging surface of the housing. A spring material ( 11 ) biases the magnets ( 5 ) into a position in which they are spaced from the vehicle-engaging surface of the housing ( 4 ). An electrical sensor ( 10 ) detects movement of the magnets ( 5 ) relative to the vehicle-engaging surface of the magnet housing.

FIELD OF THE INVENTION

This invention relates to freight protection system and device.

BACKGROUND TO THE INVENTION

The freight industry has for years suffered loss in many forms. Some of which occurs while the vehicle carrying freight is at rest, and the driver is away from the vehicle taking a break etc. The security of the rear doors on containers being carried that contains the freight are often forced open and the security easily breached.

FR 2706830 discloses an anti-theft device for transport containers consisting of a removable casing which covers the locks or padlocks locking shut the doors of the container. This casing, connected to a central alarm, is held in place using a metal support welded or bolted onto the lock or the padlock and onto which it is applied using permanent magnets so that one or more micro-contacts are actuated as long as the casing remains in place. Withdrawing the casing actuates the alarm by releasing the micro-contacts.

This application discloses a freight protection system that has been designed to warn of intrusion. Unlike other security devices that are already in production, embodiments of this system are self-arming and completely ‘stand alone’ from any electrical systems on the vehicles.

SUMMARY OF THE INVENTION

Accordingly, this invention provides an alarm unit as defined in claim 1. Advantageous features of embodiments of the invention are set out in the dependent claims.

BRIEF DESCRIPTION OF THE DRAWINGS

An embodiment of the invention will now be described by way of example only and with reference to the accompanying drawings, in which:

FIG. 1 is a schematic front view of an alarm unit according to an embodiment of the invention;

FIG. 2 is a schematic side view of the alarm unit of FIG. 1;

FIG. 3 is a schematic rear view of the alarm unit of FIG. 1;

FIG. 4 is a block diagram of a freight protection system according to an embodiment of the invention; and

FIG. 5 is a sectional view of the mechanical design of magnetic attachment and sensor according to an embodiment of the invention.

DETAILED DESCRIPTION OF AN EMBODIMENT

FIG. 1 is a schematic front view of an alarm unit according to an embodiment of the invention. The figure shows the front of the outer casing of the unit (1) that has incorporated within it a L.E.D. (2).

FIG. 2 is a schematic side view of the alarm unit of FIG. 1, which shows the side of the unit (1) and a safety hasp (3) and collars (4) that contain magnets.

FIG. 3 is a schematic rear view of the alarm unit of FIG. 1, which shows the rear of the unit (1), the four collars (4), the four magnets (5), a strobe light (6), a charging port (7), and a siren (8).

FIG. 4 is a block diagram of a freight protection system according to an embodiment of the invention, which shows the electrical wiring diagram of the unit._A micro-controller unit (a) receives input from the charging circuit and battery cells (b), the secure-coded decoder (c), the vibration detector (d), the tamper loop (e), and the status detect sensors (switches) (f). The micro-controller unit (a) then assesses all the information and sends out signals to the secure-coded encoder (g), the LED status indicator (h), the audio alarm (i), and the radio transmitter (j).

The alarm is primarily intended to give a remote indication of attempted interference with the doors of containers or metal doors. The system is designed for minimal user attention and only requires the user to unset the device to remove, automatic arming is achieved on attachment and correct attachment is confirmed visually (LED indicator) and audibly (alarm blips) and flashing high intensity light.

The alarm is attached across the door seam between the locking bars. Once all four magnets are engaged the unit will automatically arm. The LED indicator flashing red five times followed by three short blips of the audio alarm indicates the armed state.

Once set, the LED indicator will flash red briefly every two seconds.

If triggered, the alarm sends a coded radio signal followed by fifteen seconds of the audio alarm sound; this is repeated four times. New software could then send a radio signal every minute followed by two seconds of audio alarm until the unit is reset with a fob. The advantage of this is that if the unit is removed and thrown aside it can still send radio transmissions and also be retrieved by hearing the alarm periodically.

The unit is removed by using a small unit specifically coded to the alarm.

To remove the alarm, the unit is deactivated using a coded electronic key. The indicator LED will flash green slowly five times during which time the alarm can be removed (pulled) off the doors. When removed during the flashing green period it will enter the inactive state.

Any activation sends a coded signal to a receiver. This is carried on the user's person and will give a loud audible tone should the alarm activate.

Mechanical Design

FIG. 5 is a sectional view of the mechanical design of magnetic attachment and sensor according to an embodiment of the invention. This is a diagram of the specific unique self-arming design using a magnet house in an outer casing with the calibration units inside the main case.

The main feature of the mechanical design is the method of magnetic attachment. This has a three state function;

1) The magnets form the main part of the attachment system to the magnetic surface and provide sufficient force to hold the unit in place securely under stationary conditions.

2) When the alarm is attached to a magnetic surface, the magnets in each of the four housings are pulled forward to the limit of the housing. Switch sensors detect this action and if all four magnets are at the limit of the housing the system will detect this and enable the alarm.

3) The third stage is to detect the unit being pulled away from the magnetic surface. This is achieved by detecting when the magnets are pulled beyond the limit of their housings by a pre-set amount.

The actual design of the housings and travel limiting are shown in FIG. 5. Springs or spring material are used to retract the magnets and the pressure these exert is sufficient to hold the unit firmly but not excessively so that the magnets are stopped from reaching the magnetic surface by a distance of approximately 3 mm.

The self-arming feature is a magnet (5) housed in a protective collar (4). A threaded bar (9) is screwed into the back of the magnet (5) through the casing (1). Inside the casing (1) sits an electrical sensor (10) that is secured to the casing (1) by an adhesive (14). This is covered by a spring material (11) that is held in place by a metal washer (12). A nut (13) is then screwed on to the threaded bar (9) and is adjusted to calibrate the whole unit to give precise readings of how much force is placed on the magnet when it is in the process of being removed from its location.

This adjustment by twisting the nut (13) calibrates each of the four sensors thereby giving each sensor the ability individually to sense movement of the magnets. At a predetermined calibration any of the four sensors will activate the alarm unit.

The electrical sensor may comprise a piezoelectric material.

Example of Unit in Operation

When the unit (1) is required, it is placed over the seal between two opening doors. The unit (1) automatically attaches itself to the doors by way of magnets housed in collars (4) on the rear. The unit (1) then automatically arms itself and a flashing LED (2) indicates that arming has taken place. A tone sounds (8) confirming also that the system is now armed.

Should the unit (1) be attacked, the alarm will sound (8) and the LED (2) will flash rapidly, along with the strobe light (6). In the meantime an electrical coded signal is being sent to a receiver that warns of the attack.

In summary, an alarm unit 1 for a vehicle comprises four magnet housings 4, each having a vehicle-engaging surface and four magnets 5 received within respective magnet housings 4 and arranged for movement relative to the vehicle-engaging surface of the housing. A spring material 11 biases the magnets 5 into a position in which they are spaced from the vehicle-engaging surface of the housing 4. An electrical sensor 10 detects movement of the magnets 5 relative to the vehicle-engaging surface of the magnet housing.

Embodiments of the invention provide:

1. A self arming security system that can be easily attached to twin opening doors and indicates via an alarm and flashing LED indicators if attacked, at the same time sending a coded signal to a receiver warning of such attack.

2. The special features of this system are the design of the self-arming contacts within the casing and the ease with which it can be used. It is totally self-sufficient for electrical energy by way of a rechargeable battery pack and can only be removed from its location by the use of a secure coded device which will disarm the unit.

3. The design of the magnetic sensors and the material used has enabled the calibration of the four sensors to be accurate making activation when any of the four sensors are attacked very reliable.

Although the invention has been described with reference to vehicle security, the alarm unit may be used in other applications, for example securing the doors of refrigerators. 

1. An alarm unit for a vehicle comprising: at least one magnet housing having a vehicle-engaging surface; at least one magnet received within the magnet housing and arranged for movement relative to the vehicle-engaging surface of the housing; a resilient member for biasing the magnet into a position in which it is spaced from the vehicle-engaging surface of the housing; an electrical sensor for detecting movement of the magnet relative to the vehicle engaging surface of the magnet housing.
 2. An alarm unit as claimed in claim 1, wherein the magnet housing surrounds the magnet.
 3. An alarm unit as claimed in claim 1, wherein the electrical sensor is a piezoelectric sensor.
 4. An alarm unit as claimed in claim 1, wherein the resilient member is a spring material.
 5. An alarm unit as claimed in claim 1, wherein the electrical sensor is connected mechanically to the magnet.
 6. An alarm unit as claimed in claim 1, wherein the electrical sensor is connected mechanically to the magnet by a threaded connection, whereby the sensitivity of the alarm unit can be adjusted.
 7. An alarm unit as claimed in claim 1, wherein the magnet(s) attach the alarm unit to a vehicle, in use
 8. An alarm unit as claimed in claim 1 comprising a plurality of magnets, each associated with a respective electrical sensor.
 9. An alarm unit as claimed in claim 1 comprising a signal processing device arranged to detect a variation in the output of the electrical sensor and to trigger an alarm in response to an output indicative of the magnet moving away from the vehicle engaging surface of the magnet housing. 